Scoreboard



Fa. i3, 1940. J. o. nvlE'E-r AL SCQREBOARD Filed Aug. 14, 1934 7 Sheets-Sheet EULZMO INVENTORS j mi a i ATTORNEY BY W- Feb. 13, 1940. J, O, ME ET ,M 2.330.543

SCOREBOARD Filed Aug. 14, 1954 '7 Sheets-Sheet 2 f//f/es 0. fyi@ N Hard ne ewffyz'e ATTORNEY Feb. 13, 1940, J. o. lvlE ET A1..

SCOREBOARD Sheets-'sheet s Filed Aug. 14, 1934 ww www ma C 6M pf fm a@ me;

C mm f@ INVENTORS ATTORNEY Feb. 139 194@ i. o. lvlE Erm.. I Y 2,190,543

SCOREBOARD Filed Aug. 14. 1934 7 Sheeis-Shvel 4 fa/fies 0, fz'e fam celewffw'e INVENTORS ATTORNEY Feb. 13, 1940. l J. o. lvlE Erm.

SCOREBOARD 7 Sheets-Sheet 5 INVENTORS Filed Aug. 14, 1934 ATTORNEY Feb. 13, 1940.v J. o. lvlE ET AL.

SCOREBOARD Filed Aug. 14, 1934 7 Sheets-Sheet 7 J ms fwe fafdfea/fwe S R O T N E v N BY mymf@ ATTORNEY Patented Feb. 13, 1940 James 0. Ivie and Horace Leon Ivie, Logan, Utah 'Application August 14,

'l' Claims.

This invention relates to Scoreboards and has for its object the provision lof an apparatus by which the score of a game andall` essential information as to its status may be made known 5 to spectators as the game progresses. It is also an object of the invention to provide an apparatus ior the stated purpose which may be operated from a remote point so that oflicialsin charge or the game may control the action and l' insure accuracy in the original announcements and all changes. *These stated objects, and

other objects which will appear in the course o the ,ollowing description, are attained in such an apparatus as is illustrated in the accompanying drawings, and the invention consists in certain novelvfeatures which will be defined in the appended claims.

In lthe drawings:

Figure l is a front elevation of an apparatus embodying the invention.

Figure 2 is a rear elevation, the back wall of the casing being removed.

Figures 3 and 4 are views, partly in elevation and partlyv in section, of portions of the time a.; mechanism.

Figure 5 is a detail section on the line 5 5 of Figure 3.

Figure 6 is a section on the line 6 6 of Figure 3.

Figures '7 and il are detail views of switches which form parts of the operating mechanism.

` gure 9 is section through part of the mechan n for timing certain intervals.

Figure l0 is a section on the line 'lll-l@ of aty 35v re 9.

E gure il is a plan view of the mechanism :wn in Figure l0. .Figure l2 is a side view of the drum operating mechanism. 0 13 is an end elevation of a drum and ire l5.

is a plan view oi the control board. e it a diagram of the electrical. wiring.

is a sectional `View of a modiiied 1934, Serial No. 739,822

(,Cl. l61-17) Figure 22 is a section on the line 22-22 of Figure 20.

The structure shown in the accompanying drawings is designed for use in connection with. basket ball games, but the principles involved are suited to automatic signalling and ,giving information as lto other games, such as football,

baseball, racing, and other sports, yas well asv public commercial displays. It is intended that the mechanism be completely sealed and all control be from the remote control unit, thus avoiding tampering with and damage to the working parts. The iront wall l of the casing may be ornamented as desired and, in its lower portion, in the illustrated design (Figure l), is provided with Atwo columns of horizontal slots 2 through which the names and numbers of the players are to be displayed, and above each slot is a legend t, naming the position of the player whose name appears below. Alined with the slots are openings l through'which are to be displayed numerals corresponding to the number of fouls charged against the respective players, a suitable legend appearing above the column of openings, as at 5. At the opposite side of the column of slots and alined with the slots are pairs ,of openings l through which are to be displayed numbers showingthe scores made by the respective players, while above the groups of slots and openings are other openings l through which are to be displayed numbers indicating the total scores, legends 8 on the board identifying the twe teams playing, the vistors and the herne team. In the upper portion of the board, at the center, appears a dial 9 having a graduated margin and bearing the legend Minutes to play. Within the area of the dial 9 is a secends dial itl in front of which a hand ll, which revolves in a clockwise direction, will make one revolution per minute, while a hand which likewise revolves in a clockwise direction, in front of the dial will make one revolution in twenty minutes. At the opposite sides of the dial 9 are smaller dials i3 and ill in front of which hands l5 and l5 respectively rotate in a clockwise direction, the dial it being used to measure time taken out and the dial It measuring the time permitted for a team to carr the ball from its back court to the forward court. The indicia on each of the four dials is so arranged that a reading oi each dial indicates time remaining. At oppou sides of the upper portion of the dial 9 are il through which are displayed legends i8 hating the instant playing period, as First Said legends, the numbers for fouls,

desig quarter.

and the names and numbersof the players are carried on drums, such as shown at I8 (Fig. 2),

mounted on the inner side ofthe board or wall l while thescore numbers are on dials i9, also mounted on the inner side of the board, the

most drums carrying upon their respective sides legends such as Firsthalf, Third quarter. First eXtra period, etc., while the player-desy ignating drums carry the names of the rst team players and Yall v.substitutes in the `order previously-.

determined.

Referring now to Figures 2 and 3, power for operating the team total score dials is applied only to the unit dial I9 which has a single projection or lug 2B `at or on its peripherywhich is adapted at the end of each revolution to engage a pair of projections 2| on the tens dial it and thereby move the latter through one-tenth of a revolution. i

The power for driving the time mechanisms is preferably furnished by a synchronous electric lmotor, indicated conventionally at 2l?, while the power for operatingthe drums and dials or disks is vderived from anl induction motor, indicated conventionally at 23. The shaft of the motor 22 carries a worm 2li (Fig. 3), which mesh-es with `a worm gear 25 secured on a shaft 2G which is suitably mounted onsorne fixed member of the supporting frame and is alined axially with a shaft 21 which extends through the board or front wall I and carries the hand Il atv its front end. A bevel gear 28 is secured on the rear end I through the followingmechanical elements. On

the front end of the shaft 25 is secured a clutch disk 33 having openings 34 close to its periphery and throughout its annular extent. A mating clutch disk 35 is splined upon the inner end o f the shaft 2l, as shcwn at 3S, so that it may slidek upon the shaft but is constrained to rotate therewith, and the hub of this disk $5 is provided with an annular groove 3l in vwhich is engaged the forked end of a lever 38 (Figure 4) which is fulcrumed between its ends and has its opposite end engaged with a Vslide 39. The ends of the slide 39 constitute cores for the respective solenoids Ml, il which are not simultaneously energiZed and serve to rock the lever Eil so as to shift the disk 35 into or out of engagement with the disk 33 accordingly as the hands i i and I2 are to turn or not to turn, it being understood that 'the shaft 26 rotates constantly and the shaft lil rotates only when the clutch disks are engaged. A compression springvi holds the slide in the position inwhichit is set.

rlhe disk 35 has six bosses 43 on its face presented to the disk 33 and pins lill are slidably mounted in these bosses and are adapted to engage the openings 34 so that the two disks will rotate together and effect rotation of the shaft 2l. The holes 35i and pins lll are relatively staggered so that only one pin will engage an opening in one-sixth of a second when the movable disk is shifted and firm coupling of the disks will be effected. If two holes passed `a pin in one second, engagement would be effected in onetwelfth of a second. Of course, thedetails may be varied according .to demands. The pins M- are carried by springs secured on the disk 35 so that the pins which strike the disk 3?.- inay conveniently located on the frame of the apparatus, a beveled gear ll being secured on the upper end of the shaft and meshing with a beveled gear 5! loose on the shaft 5.5; which carries the hand i2. The gear 5i has secured thereto two stiff springs 53 projecting laterally and having rollers 54 ontheir free ends which bear upon the notched periphery of a disk or gear 55 which is secured on the shaft 52, the pressure ofthe springs on the rollers holding the rollers on the disk so that .the rotation of the gear 5i will be transmitted to the disk and to the shaft 52. It may be noted at this point that the disk 55 has the same number of teeth as there are'minutes in a playing period.-

55 designates a circuit-closing finger secured on'the shaft 52 and 5l'designates a similar finger securedon the shaft fil'. The operation of these fingers and the train of gearing and shafts associated therewith will appear later.

The minutes to play device, described above, may be moved back from any particular time indication in any playing period when necessity arises by the operation of the following elements. A ratchet gear 58 y(ligwe 6) is secured on the shaft 52 near the rear end thereof and a reciprocatory bar 59 is arranged near said gear, said bar being actuated by an eccentric @il on the shaft 6i which extends from end to end of the casing and is driven by the motor Z3 through gearing indicated at 6i! in Figure 2. Pivoted between its endson the `bar 59 is a dog 53 which has its upper end disposed toward the ratchet gear and adaptedto engage the same, while its opposite end is at the opposite side of the bar and is equipped with a pole piece (i4 which serves as an armature for an electromagnet 65, a spring acting on the dog (i3 in opposition to the magnet in an obvious manner. Normally thefdog is clear of the gear, as shown in Figure 6, but ,when the magnet is energized the dog will be thrown into position to engage the ratchet gear and will lturn the gear one tooth on each up stroke of the par. The turning of the gear causes the shaft 52 and the disk 55 to turn, but the gear 5l cannot turn` because of the resistance from the train of gearing kcooperating therewith., the result being that the'rollers 54 will be engaged in the next adjacent notches in the disk and the hand Z will be moved back one minute. The finger 5l' controls the mechanism which prevents current going into the magnet except in one particular position.

The oi goal and "time out devices used .in this score board are shown, in general, in Figure il and in detail in Figures 9, l0 and i3. "The shafts fil and are respectively connected at their upper ends, through bevel gearing as shown at fil,- with the mechanism for turning the off goal and time out hands. Referring to Figure 9, designates a shaft which is geared to the shaft iii', or the shaft and rotates cohs'tantly. The shaft fifi is alined auially with the 1land-carrying shaft G9 by clutch members lll,

a lug ||1 thereon is caught bythe latchthe 'detent |09 and the armature being thus held until the dog has moved the ratchet one step.V By this arrangement, a brief touch on the controlbutton |86 is certain to cause the proper movement of the ratchet and counting disk regardless of the position of the moving shaft when the button is touched.

, A detent, indicated conventionally at I8., prevents back motion of the tens dial.

Going back to the mechanism for operating the pointers and i2 for indicating theuninutes to play, Figures 7 and 8 show details of switches which are employed in the time mechanism. Figure '7 shows a relay which is opened electrically and is closed by the nger 56. A frame or plate |49 is pivoted at E25 upon the main ira-me and pivoted upon said frame or plate at one end thereof is a bent lever |2| having one arm extending into the path of the finger' 55 and its other arm normally resting against the plate i S5 under the influence of a spring |22. The endof the plate H9 beyond the lever |2| carries a polie piece |23 which is an armature for a magnet |25 and on the opposite side of plate H9 are two contact points |25 and |25 which are insulated from the plate and from each other. A spring |21 yieldably holds the plate i l5 in either position in which it may be set. 28 and |29 designate contact points which are engaged by the points |25 and |26 respectively in one position of the plate H9. When the finger 56 moves upwardly in Figure 'l (which is the direction of its travel when the clock is in gear, Fig. 7 being a bottom View) it abuts the lever 12| and rocks the lever and the plate H5 soV as to swing the points |25 and |25 against the points '|23 and |29, and the ringer 55 may then clear the lever. If the minutes to play hand is being set back,

. as for an extra period, the finger 5E wiilr impinge upon the upper side of the lever |2| which will rock upon its pivot and permit'the finger to pass Without changing the position ofthe plate ||9. l

Referring to Figure 8, a plate or bar |35 of insulation is pivoted at one end, as at |3i,'and

`a spring |32 yieldably holds it inthe position shown, the upward movement being limited by a stop lug At or near its free end, the bar |35 is provided with three contacts |34, 135 and |35, the contact |35 being shown as spring mounted on the under edge of the bar and the contacts |351 and |35 being pivoted on the oppositey sides of the bar and yieldably held up by a springs |31, the upward movement being limited by stop lugs indicated at |38. The contacts `|34 and |35 make electrical contact with `the finger 51 every time it passes, said linger being con` nected into the grounded side of the power circuit, and the pressure of the ngerriding over the bar |35 forces the contact 535 against the contact |35 carried by a leaf spring i115. v

On top of the main frame or casing (Figures 1 and 2), at the top thereof, is a relatively small housing |4| to which access may be had through the back and in which a gun for announcing the close of a playing period is mounted. The gun comprises posts or side bars |42 (Figures 20, 21 and 22) connected at their upper ends by cross beams |43, |44, all of these elements pref-- erably being of metal. The beam |43 is drilled to provide blank-cartridge openings' or barrels |45 arranged in pairs and through the beam |44 are drilled openings alined with the barrels |45 to receive and guide the liring pins |46. By nr;-

` beam |41 extends between and is secured to the posts |42, and this beam has vertical passages .formed through it to receive the hammers |48 having heads |49 at their upper ends arranged below and adapted to impinge upon the lower ends of a pair of firing pins and drive the latter against the shells to explode the same. The hammers are forced upward by strong expansion springs |50 coiled around them between their heads and the beam |41, and they are held down against the `action of the springs by triggers |5| mounted in the beam |41 and arranged to engage notches |52 formed in the respective hammers, as shown clearly in Figure 22. The triggers are held tothe hammers by leaf springs |53 secured on the beam |41 and bearing upon the outer downturned terminals of the triggers which pass through slots |54 in a guide plate |55, and, to insure thenotches |52 being in position to be engaged by the triggers, guide pins l 56 are carried by the lower ends o-f the hammers and play in vertical slots |51 in a guide plate |58 whereby turning of the hammers is prevented. A firing shaft |59 is journaled in the posts |42 and extends across the rear vsides of the pendent ends of the triggers, cams |60 being arranged helically along the shaft so that as the shaft rotates the cams will be brought successively against the triggers which will, consequently, be successively released from the hammers and the pairs of shells successively fired. Secured on one end of the shaft isa notched disk IGI and loosely mounted on the shaft'alongside the disk is a lever |62 upon which is hung a dog |63 adapted to engage and actuate the disk. A

- firing action.

In Figure 19 is shown a clutch which may be substituted for the clutch previously described. In thisy clutch, thedisks |69` and |15 are fixed upon their respective shafts and vremain at a constant distance apart. A drum `|1| is slidably mounted at the side of the disk and is provided in its side with openings in which are engaged the inner ends of angle levers |12 which are fulcrumed on lugs |13 on the disk |10 andA have their outer ends arranged to engage notches |14 in the edge of the disk |69 to thereby look the disks together. The drum is shifted by the energization of opposed solenoids as heretofore described.

The score board shown in Figure 1 is operated from a remote control board o-r table |15 shown in Figure 17, under the direction of an oiiicial. A. cable of wires connects the table with the score board and by depressing any one of the various buttons mounted on the table, a particular 'electrical operating circuit is completed and may be traced on Figure 18. The switch |16 on the table is a master key switch which controls the passage of the necessarycurrent vthe openings 4.

through the motorsandl electrical switches mounted on the score board. The pilot light I'II indicates when the current is on for operation of the score board indicators.

The top drum I3 on the left side in Fig. 1 has the legends First,-Second, Third, and Fourth, printed on its sides, while the top drum on the right side bears the legends Half, Quarter and Period. A high school game is played .ni quarters and, therefore, the top drums I8 should read First quarter, Second quarter, Third quarter, or VFourth quarter. A college game is played in halves and in this case, the drums I8 would read First half `or Second half. If agame should end in a tie, the legends of the drums I8 can be moved to read First extra period, Second extra period, Third extra period, or Fourth extra period.

The buttons I'I'B when depressed, will close the electrical circuit through the previously described mechanism whichv will rotate the drums I8 to bring the proper legends therein in position to be seen through the openings il in Figure l, and designate the playing period of a game. Assuming that it is desired to make the legends of the topl drums I8 read First extra period, the button I'I under the legend Na in` Fig. 17 is depresedV to cause current to flow through the electromagnet I8! (Fig. 12'). This magnet then pulls the' end of linger il against the magnet, and in so doing, removes the guard end of the nger away from'the ratchet gear QI, thereby permitting the dog 85v on the reciprocating shaft 94 to drop into one of the notches of the gear 9| and turn the drum it. The drum is permitted to turny until the reading First appears through the slot I'I. The button I'IB then is released to discontinue the flow of current through the magnet IBI, and thereby permit the spring 99 to return the nger Sl to its normal position where it' prevents the dog 95 from dropping into the notches of gear SI. The drum I8 then stops turning. Button 18, on the right, under the legend Q--Iii-g controls the flow of current through the magnet Il for operating the drum I8 bearing the legends to indicate the periods. This button is released to discontinue the flow of current through the magnet I I when the reading Extra period turns into view through the slot I'I. The same procedure follows for any of the other readings that are desired for designating the various playing periods.

vThe same mechanisms shown in Figs. 12 and 13, andV mentioned above relative to thel playing periods, are also used `in making the proper changes for the names of the players appearing through'the openings 2, Fig. l, and the personal fouls called on the players and shown through In Figure 17, the buttons IIt, onthe table I'I5, under the legends Players andFouls control the iiow of current through theirrespective magnets I IJI. If, for example, the center of the visitors team commits a foul, the third button down the foul column opposite the button labeled C in the players column of the Visitors side is depressed. That causes current from the battery IM to iiow through the magnet IOI, and causes the particular foul drum to turn. The turning of the foul drum may be stopped by releasing the pressure on the button as soon as the proper number has been turned into View. The intermediate mechanical movements which take place during the operationy just described havealready been explained in the operation of the playing period mechanism. If a substitution is made for the right forward of the U. S. A. C. or home team, the button H8 labeled RF on the U. S. A. C. side is' depressed to cause the current t0 flow from the battery I84' through the proper magnet IBI and turn the right forward drum I8l on the U'. S. A. C. side of the score board. When proper naine appears behind the opening 2, the button is released to discontinue the flow of current through the magnet IUI, and consequently. to discontinue the turning of the right forward drum above mentioned.

The total scores of the teams are indicated through the openings l" by means of the disks I9 and I9 (Fig. 2). The buttons |19 (Fig. 17) control this indication; the plus button adding the score and the minus buttons subtracting from the score in case a correction should be necessary. If, for example, the visitors make a basket, the plus button I'IS of the visitors side of the table is given a brief push. This sends an impulse of current from the battery |84 through the advancing magnet H2 as shown in Figures 15 and i6. The magnetism, while the current impulse lasts, pulls the end of the iinger I I3 against the magnet. During that movement, a projection H'I on nger H3 passes under the point of the catch H5 which hooks the projection Hl and holds the nger H3 against the magnet. With the nger H3 in that position, it will not prevent the dog Ill! on the rocking lever IBB from dropping into a notch of the gear IUS. When that occurs, the dog III! causes the gear to rotate in one direction with the shaft It?. As soon as the gear |08 moves, the roller on member IUS is pushedout of a notch of the gear and in so doing, moves the catch H5 by means of the small rod H5. The moving of catch I I5 allows the :linger I I3 to swing back into its normal position under the action of spring IM and the dog III) is prevented from catching in another notch of the gear. As the gear |08 has advanced one notch, it has turned the disk I9 enough to advance the reading of the score by one number. The two points made by the making ofA a basket can be indicated by two depressions of the button a few seconds apart. If, by any chance, the particular basket should be disqualified after it has once been added to the team score, the minus button |19 is depressed to cause current to fiow through the opposite magnet H2. By means of the same mechanical action as has been described, the gear IBS will turn one notch in the reverse direction and thereby correct the reading of the score.

The same type of mechanisms shown in Figures 15 and 16 and mentioned above relative to the team score, is used for displaying the individual scores of the players through the openings 6. In this case, the plus and minus buttons |88 under the legend Individual of Figure 17, are depressed to cause the same action as has just been described for the team score. If, for example, the center makes a basket, the plus button ISQ on the C row of the respective team side is depressed to cause current from the battery I8!! to flow through magnet I I2, and thereby cause the adding of the appropriate score to the indicator for the particular center. Again, the minus buttons IBI), beside the above mentioned players plus button, when depressed, will cause his score to be reduced.

The switches I8I are double-throw switches as indicated diagrammatically in Figure 18. We

iii

will assume that one teaml gets the'ball jin its back court and, therefore, has ten seconds, under the present rules, to get the ball into front territory. The koperator presses the or goal switch |8| to the right in Figure 17 or Figure 18 thereby closing a circuit which sends current fromlithe battery |84 into the relay |85 which thereupon closes contacts which sendY current from the power trunk lines |86 into the solenoid, as at 46, and the off goal clock I4 (Figure 1) will be put in gear. The switch may then be released and will spring back to neutral position cutting oir the ow to the relay and solenoid but the clock will remain in gear. With the clock i4 in gear, the finger T5 (Figures 9 Gr.18) and the hand I6 will rotate at the rate of one revolution in ten seconds. if the team runs over the ten seconds, the iinger 'l' 5 will have impinged against the block 19 and assumed a position between the block and the end of the rockingplate 8l and the contacts 18 and 84 will have beenlbrought together and have closed the circuit to the signal, which may be an electric whistle. The nger 15, however, is still moving e jand the block I6 is pushed slightly farther closing a circuit through the contacts 85 and 86 which sends current into the solenoid 4| and opens the clutch. The contacts 64, 85 and 86 being carried by light springs, the iinger 'I5 may continue to move until a slight magnetic lag in the solenoid 4| is overcome so that freezing pressure on the engaged pin of the clutch will be prevented. As soon as the clutch is opened,the linger 'i5 falls back against the end of the plate 61 with the pressure of the return spring but `the switch |8| to the left which sends current into the magnet 86 and the solenoid 4| but, as the clock is out of gear, the energizaton of the solenoid is without effect. The magnet 90, however, will release the plate 81 from the ringer 15 which will be rotated by the return spring 'H3 back tothe starting point. If the team does not overrunY its time, the operator may stop and reset the clock at any time by merely briefly pushing the switch i8! to the left and, as the clock is now in gear, the solenoid will act to put it'out of gear, allowing the nger and hand to return to initial position. i

The time out indicator is a repetition of the off goal indicator description given above. The onlydiiference in the two is that the finger 'l5 of the off goal clock swings around once in 10 seconds while the ringer 15 of the time out clock swings around once in two minutes.

The operation of the minutes to play indi- ,cator is controlled by switch |8| shown in Figure 17 and bearing the label Time Assuming that the clock is stopped and the teams are ready to start a playing period, the switch |8| is pushed to the right to cause current from the vbattery |3d to flow through the relay |85, which then causes current from thepower line |86 to low through solenoid 48 and pull the plunger 39 inward. The movement of the plunger 316 into the solenoid 46 causes the lever 38 to rotate so that the clutch 85 is in gear. When the clutch is in gear, the shaft26 turns the shaft 2l (Figure 3), which, in turn, rotates the second indicating hand The gearing from the shaft 21 turns the hand 4|2 to indicate the minutes to play.k When the pressure is taken ofi switch IBI.,v

it assumes a neutralr position between its two4 contact positions, so that no current is flowing from the battery |84 through either of therelays |85 or 206. The ow ofcurrent through the solenoid 40 then ceases, but the clock stays in gear because it requires power to move it out of gear. In such a condition, the rclock keeps turning untilthe time keeper stops it by giving the switch |8| a push to the left. switch is moved to the left, current from the battery |84 flows through relay 260, which then causes current from the supply line |86 to flow through solenoid 4|. Plunger 39 is thenl pulled to the left or into the solenoid 4I, with the re# sult that the clock is mechanically thrown out or gear. Wnen the pressure holding the switch 18| to the left is relieved, it againv assumes 4a neutral position and interrupts the flow of cur-r rent in the circuit. The clock rcan be thrown in and out oi gear any number of times during the playing period, and the indicators will continue on towards the closeof the period from each stopping point.

Switches ligand |38, shown in Figures 7 and 8 f and indicated diagrammatically in Figure 18,

control the automatic stopping of the clock and 20 minutes it will yreturn to the under side of lever 2| moving in an upward direction such that it can swing the switch on its pivot |20 and cause the contacts of the switch to close within the last minute of the playing period. Finger 5l, which makes contact with the grounded side of the supply-liney |86, passes from the left to the right over the top of switch |36 once every minute. At the point where` the finger 5l touches the contacts |34 and |35, it pushes the switch When theV downward until contacts |36 and |39 are touching. rIhe contact between the ringer 5l and points |34 and |35 has no eiect unless the switch IIB is closed. Assuming that the clock is running near the end of a game, the nger 51 passes over the switch bar |30 and starts to measure the lastminute, while the finger 56 impinges against the under side of the lever |2l, and up to this point all the contacts of both switches are in an open position. The finger 56 then rocks the switch bar IIS so that the contacts |25, |26, |28 and |29 are closed, thus preparing the -cir,`

cuits for current iiow at the close of the last second of the period. At the end of the last are touching, and then through solenoid |65 which will pull the plunger |61 and iire the gun. Current also ows from the contact |35 to the points |28 and |25 andr through solenoid 4| which stops the clock. Current will continue to flow in the solenoids at this point as long as switch||9 remains closed, as switch |8| has no effect in the operation of the clock when switch ||9 is closed, It can send current into solenoid 46 but that solenoid cannot pull the plunger 38 because current is still flowing in solenoid 4|. That, in a sense, locks the clock in the position at which it was at the end of the period until it is desired tostart timing the next playing period.

Assuming that it is desired to put things in order for timing the next playing period, the operator depresses the button |83 to cause current from thebattery |84 to flow through magnet |24 which will pull the switch |I9 open, so that the contacts |26, |29, |25 and |28 will no longer touch. That interrupts the flow of current through solenoid |65 and allows the spring l-i (Fig. 21) to pull the plunger |61 back into its original position, Where it is again ready to lire the knext shot at the end of the next playing period. Current also stops flowingl through the solenoid @I which again makes it possible for the switch |8| to start and stop the clock.

If the next playing period should be an extra ve minute period, as for a tie game, it will be desired to set the indicator to read minutes to play before the period is started. The clock has been stopped in such a position that the finger El is holding the contacts |36 and |39 together, and at that point gear 58 (Fig. 6) i is in the proper position for dog 63 on reciprocating shaft 59 to engage the notches of the gear. To set the clock, the operator pushes the switch ISI to the left, then depresses the button |82 to cause current from the battery |84 to flow vthrough the contacts |36 and |39 to magnet 65 and cause the dog to swing into a position in which it will catch and move the gear one notch backwards for each stroke of the shaft 59. Five strokes of the shaft will shift the minutes-to-play indicator to that position where it will indicate five minutes to play. The official then releases the pressure on the button |82 to interrupt the iiow of current and allow dog 63 to assume its normal position. By that'method, the time indicator can be set for any playing interval desired within the range of 20 minutes.

It will thus be seen that a score board is provided which is operable through the medium of a remote control board and is capable of indicating at any time during the course of a game, a true rsume' of any7 and all pertinent facts relative to the period being played, namely, players, players scores, players fouls, team scores, time to play, time out and/or off-goal time.

Having described the invention, we claim:

l. A time indicating mechanism comprising a dial, an indicator movable over said dial, operating means for said indicator including a driving shaft and a driven shaft, time-controlled means for rotating said driving shaft, and gearing connecting the driving shaft and the driven shaft including a gear loosely mounted on lthe driven shaft, a notched disk secured on the driven shaft adjacent the loosely mounted gear, the number of notches on said notched disk corresponding to the divisions on the dial, fingers secured on the loosely mounted gear and yieldably engageable in the notches of the disk, and a resetting mechanism for said indicator.

2. A time indicating mechanism comprising dials, indicators movable over said dials, operating means for said indicators including driving means comprising two longitudinally aligned shafts, and a driven shaft, means for rotating said driven shaft comprising said longitudinally aligned shafts, time-controlled means for constantly rotating one of the aligned shafts, the other aligned shaft carrying one of the indicators, cooperating clutch members mounted on the aligned shafts, one of said clutch members having on the face presented to the other clutch member a plurality of resiliently mounted projections adapted to engage openings in the face presented thereto by the other clutch member, means for engaging and disengaging the clutch members, the projections and the openings being relatively staggered to reduce the maximum angular motion lost when a coupling of the clutch members is effected, and gearing connecting the driving means to the driven shaft.

3. A time indicating mechanism for a game comprising a dial, an indicator movable over said dial, time-controlled means for operating said indicator including a shaft, a remotely-controlled clutch means for rotating said shaft in one direction, and remotely controlled means for rotating the shaft in the opposite direction for resetting said indicator.

4. A time indicating mechanism for a game comprising a dial, an indicator movable over said dial, time-controlled operating means for said indicator including a shaft, remotely controlled clutch means for rotating said shaft in one direction, and means for rotating the shaft in` the opposite direction for resetting the time indicator, comprising a ratchet securedon the shaft, a reciprocatory bar, and a dog mounted on the bar and adapted to engage the ratchet positively when the bar travels in one direction of its reciprocating cycle.

5. 'A time indicating mechanism for a game comprising a dial, an indicator movable over said dial, time-controlled operating means for said indicator including a shaft, remotely controlled clutch means for rotating said shaft in one direction., and means for rotating the shaft in the opposite Ydirection for resetting the time indicator, comprising a ratchet secured on the shaft, a reciprocatory bar, a dog mounted on the bar, mearm for yieldably holding the dog from engagement with the ratchet, and remote-control means for engaging the dog with the ratchet, said dog being adapted to engage the ratchet positively when the bar travels in one direction of its reciprocating cycle.

6. A time indicating mechanism comprising a dial, an indicator movable over said dial from a zero position, time-controlled operating means for said indicator including a shaft, means for rotating the shaft in one direction, control means for stopping the rotation of said shaft in said direction. when the indicator is at the Zero position, and means cooperating with said control means for effecting the rotation of the shaft in the opposite direction for resetting the indicator when the control means stops the rotation of the shaft.

7. A time indicating mechanism comprising a i v dial, an indicator movable over said dial from a zero position, time-driven operating means for said indicator including a shaft, means for rotating the shaft in one direction, control means for controlling the rotation of said shaft in said direction when the 4indicator is at the Zero position including a switch mechanism to stop the rotation of the shaft, a signal actuated by said switch mechanism, and means cooperating with said control means for controlling the rotation of the shaft in the opposite direction for resetting the indicator when the control means stops the rotation of the shaft.

HORACE LEON IVIE.

JAMES O. IVIE. 

